AMCG00006884 (ccnd2a,ccnd2,LOC106573197,LOC106561356,LOC107575166,LOC107686624,LOC107732799)



Basic Information


Item Value
gene id AMCG00006884
gene name ccnd2a,ccnd2,LOC106573197,LOC106561356,LOC107575166,LOC107686624,LOC107732799
gene type misc
species bowfin (Amia calva)
category of species ecological fish

Chromosome Information


Item Value
chromosome id CM030134.1
NCBI id CM030134.1
chromosome length 29342575
location 24304696 ~ 24335916 (+)
genome version AmiCal1_2021_bowfin_Genome

Sequence


>AMCG00006884
TGATGTAGTATGTTGCGTCTGGCCAAGCAACTCTTCTACAAGAGAACTGCCCTGTGTTGCTTGCGTCACTTGAAGCTCAGGCTTCATATCGAGAGCGCAAAGGAAAGcagagagcgagcgagcgagcgagagagagagagagagcgagaggggaaaaaaaaagttccgAAGGGAGGCAGGACACAACTGGATAGCCCTGCAATCCCGATTATatgtttctaaaaacaaaatactttatttccagttgttttgtatgtttctaTGATTCCAGATTCGAAAGATTCCATTGATATTCTAAACTAACACCATGGAACTCCTTTGCTACGAGGTGGACACCATCAGGAGAGCCCGTCCAGACCCCAATCTGCTTTTTGATGAGCGGGTTTTGCAAAACCTGTTGACCATCGAAGAAAGGTTTCTACCCCAATGCTCTTATTTCAAATGCGTCCAGAAGGATATTCAGCCATTTATGCGGAGGATGGTGGCAACTTGGATGCTGGAGgTTTGTGAGGAACAGAAGTGCGAAGAAGAAGTTTTTCCTCTGGCTATGAACTATCTGGACAGATTTTTAGCAGTGGTACCTACCAGAAAATGTAATCTACAGTTGCTGGGAGCGGTTTGCATGTTTCTTGCATCAAAATTGAAAGAGACACGTCCATTAACTGCAGAGAAGCTCTGCATCTATACTGACAACTCCATCAAACCACAAGAGTTGCTGGAGTGGGAGCTGGTGGTCCTTGGGAAGTTGAAGTGGAACCTGGCAGCAGTGACTCCCCACGACTTCATCGAACACATTGTGAAAAAGCTGCCCTTGCCCAGTGAAAAGCTGCCTTTAATCCGCAAACACACGCAAACCTTCATCGCCCTTTGTGCCACAGATTTCAACTTTGCAATGTACCCTCCATCAATGATAGCAACTGGAAGTGTTGGTGCAGCAATCTGTGGCCTTCAGCTCGATGATGGTGAACGGTCACAGTGGGGAGACAACTTGACAGAACTACTTGCCAAAATTACCAACACAGAAGTGGACTGCCTGAAGGCTTGTCAGGAGCAAATCGAAACGGTACTTGTGAGCAACCTAAGGCAGGTTCGccagcagcaacagcaagagCAGGGAGGACCTGGAAAAGCTGTGGATGAGGTGGACCAGGCAAGCACACCCACAGATGTTCGAGACATCAACCTGTGAGCCCTACTGCTTGGAAACTGCTGGAGGACCaagctggaaaaataaataaaaacaaaaacttaaaaaaaaaacagcaatgaaaaaacaacacaaaccaaTGCCCTACAACAAAAGTGTGCTTGCTCCTCTTTTTAGAAAGGCCTTATTttatactgtacttaaaaataagaataaaaagggCTCCCATATATAGATCACAATCAAAGCTATTTtagatatgaaaataaaaactttttaaaaaataacaaaaaataataaaaaacaaggaaaaaaaagatcaattaTGCATCTTATGTTTTACAGAAGGGAAACCTAcgattaaatattttgcatattcactgtttttaattgtatatccataataaagatatatttaaaaaaaaaaaaacataaaaaattaaaagcttacAAAAGCTTATAAAAAATTAGCTGAAGAAATATAAGTCTACATATGTGGGATCAATATAGGGgctacatttttgtttagttttttttgtgccGCAAGCATACTGTTATCATACACATGTGTGTTTCCATTTGATGTAAATGGAGTGTTCAACACATATTTCCTCTGTGTGTCTAAGATATCTAGGCTggactgtttgtgtgtttgtgtgcgtgcgtgagtgtgtgcgtgagtgagtACATGACGGAGCAGTTTTTCAGCTTAGGTTAATTGCAAAGCAATAGTCTTCAGAAAAAGTTGGGGACGgtcccagacagacagaaaggctCCTTAATGGCGGAACCATTTTTCAGAGCAGAACAACTTGGATCTAATACAGAATGTtgaatctattattattattattattattattattattattattattattattattattattattttattttttgtgttaagCAACTACTTCTGTCACAGTGAATGCTTCGTCAAAAATCTTAACTCCAAtaagctttgtttttttgtctgtttttttgtgtcagGAAATAGCTGCTTCAGAGTGTATGTATGCGCGTGTGCGTGTTAGGTAAGGCAGAGGAGAGGAGGTGGGAGGGCTTGGCTGGCGGAGAGTTGGTTGCTTCTACTGCCTGCTTTTTAGGGCACCTGTGTTATTGTGTTCCACTCACATACTTCTCTTTCGAAAATGTCTAAGCAGCCACTCGTGGCGGTGCCTTAGTTTTTGAGGGGGCTGAGCCCACTCACTCCACAGTGAGCTAGGTAGATATGTCAATGTTGCTATTTGAATAaaagagggaggggaagagTAAGGGGGTGCCTGCAGTCTTCAAAGAAAGAGGAATGGCACCTAATGTCCTAACGTCCTAACGTCCTGGCCACTGCCAGGGGTAGAGCAAGTGGCTTGTACTATCAAGGGAGTACTGTATAATGGAGAAAATATGTTTCACTGCCAAGTCGCCAATCAAGGTGAccgttttgttttattttgttctgttttgttttgttgtcagtTGGGCTTGGCTTAAAATGGACAACGGTGCCCAAAGCAATAGAATCTCAATAGAATTAGACAGAGGTTAAAGATCTTAATAGCGAAAGCTACAGAGGGATATAGTTATTTAAGATAAGTTGTGGAATTGTGGTAGTGTCCCACATCGGTTCATGTCACTGCATGCTGCTGATTGAGGGGAAAGATGTTGACAGGCAGTGGCTGGGGTAGAAGGTGGAAGTGGGGAATGGAGGCAGAAGACAGCTACAGTCCCAGGGTCTTTCCCTGCAATAAACTGATACATGTTTGTGTTGAGTGTGTCTATGTTCGATTGTtttaaggttgttgtttttgtttttgttttggaccATTTTCGATCATGCACAATTGAATGGCAGTGGAAATCAAACCAGACTTTACACTGCcaagtttttatgtttgtttgtttgtttgttttttcttcacaaaaggTGCATTTTCTAAGCGTGGAACACTTTTCATTATTGCCAAGTCCACAACTTTGGTCCACATGTTGTTGTAAACTATTTCATTAGCAAAGCACTTTGAACCAAACTCCCAAGGGACGAATGGAATGGTTTTTGAAAGTCTGCTGAGGGAGATGTAGGGATGATGatgttctcttttttgttttagttttttctttcttttttttttgtttatttgttttgcttggggttttttttgtttttttttgttttagttttgtaggGCTGGTTTCCCACATCAGGTGTTCCCATGGCGATAGATTGAGGTGTTTTAGTGATTTGTAACACCTGTTCTAGAAGACATTCCAACTGAAACATTCCAAAAAAAGAGAAGAGTCTGAacatttcatgttatttaaaaacaaataataataattacaatatcaTAAAGAGATAAACTATTACATGccaatgcaaacaaataaaaagcttcTGAAGAGGTTCgcaattttaatttacttttcttttttgttttagttttgggatttttttttaatcaaataataaagtttattaattttacttgAATTTTTTTGTCTGCTCCATGGTTAAGTCACTTGGATggtgtacataaaaaaaaaaaagaaaaagaaaaaaaaggaactttttgttaggatttttttGCACATGTTCTAATACCAGctgaattattatttcacacaaaATTGTTCTTTAAAAGGTTGCGTGGCAGTATTTCTTACTCTTATTGCAAGTTCATATGTTCTGAAGTTGAGTTTTGCAAAGGAATCTGTCCAAAGTCAACTGGAGGAGTAGTTGTGACTTCGAGACAGCTCTAAAATGTTACTTATGCTTGGAACTTCACTGTTAAAAAATCAGGACAGGGCATAGATGACTACTGAGAGCTGAGCTGAACTGTCACCCTTTTGCTACTTGAAATTGACTGTGTTGGATCAATTATGTTCATAAATTGATAAAAACTACGCTCCAGAACATCTCAATTTGCACAATACAATAGGAGGAAAGTGAGATGGCACTATTCTCCttccctcccaccccccagcATAAGTTGGCGTCaactttaaagaaaattaactgTTCCATTTTGTaaggggggtggtggggggtgcgCTCATAGAAAACGCTTTTGCTGGATAAAACAATTTTTGTGGGGaatctctatttatttttcaatgcttCTGAAAACACAATCATTCACCATCATATGCCAATCCATCTTTAATTCACAGTGTTTCTCAGCCAGATGACTAGTACTAgtgattataaataaacagttaattTTTAAATGGAGTTGCTGTTTGAGAAGACTAAAACATTGCCAACTTATCTGGGGTGGGCACAGCAATAAAATGCAAGGCTTTTATGTCTGTCTTTTAGGTGGCTGTAAGTCATTTAACACGTATGGAAGAAACATTAATATGTGGAAGAACTGTATGctccttatatttttcatatgagATATGAATCTGCtgaacatatattttcaacacatacaataaatacatggcTTACAGACTAAAGTATATGGATCATACATTTCTACCATAGGCTAAACATAGGGCCTATATGTTAGTTCTGTATGGGATGTTGCTATGAAAACAAGTGGGTgagcagtttttaattttttaatttttattttggtttgatttggGGTTGGGGGTTTGGATGACAGAGGGGTTTTTGAGGGATTAGATATTCCAAAGTGAACCGTGCAAACAAGGTTGTAATAACAAGTTAAagtatctgtatttttattgggttttttttgtttgttttgttttttttgcgcTGCTAAAAAGCtatgattttttaattcttatacACATTAACAGTACTTAGCTGTGATGTTTCACTGAGTGTGCTgctattttataaacatttgtattatataattattttactgcttaaaaaaacagaatactgAAGTAGATGGTGAAAGAAGATCATGAAACAAGTGTTTGACTGGAAATGCTCTGTACAGTTTGCTCTAATAGcatgtctttgttttctgatgtgttttttttcctcccctttcctttcttttcttgtcaCATTCTGGAAATGCGGTATATATTTACCTCAGGTTTactggacaaaaaaaaagttcccaTTCTCACAATACCTCACAACTACGCAGTTTTAAGGGAGCCTAGTACTACCGTTAATAGTGAAGCAGAAGGACAGATTGActcattggtttgttttcttgctatGAGATGCAGAGACGAAAAAAGTTTTTTACCAATGAAGAAAGGTACACGGCTCCCACCTGGACTCAAATATAGTGGAGGAAGGGAAACAGAACGAACAAACAAATCCCCCCAATGAATGGGCATTAAAATGGAAACTTTCCACATGAGACCTAGCCATTCAATGCATATCATAAATACTAACGGTGCTAAACATCAGCCTTGCAAATTTtgattcacaaataaaaaaatatataataatatcaaataaatagCCCTTTTTTACagccataataataatcaattaagattgattgatgcAGGTTTGATACAGTGCTGGTTTGGTGAATCTCcatcagagttttttttttttttttcttgtagctTTGTGAATTGTGCAGAGATAATTTCTACTTTGAATTCCCCAACAACAGCTGTAGTTCCAGGCCATTGTACTCCCTGCAGAATCCATTTAAATGATAGCTAAAGAAATGCAAGGCCGAAATTTGGCTTTGGATCAATTCACTCTCGGCTTGTGTAAATAATTGGGGAAAATCTCCATAGGGCAAAAAAGGACAAAGTTAACAGGCTACCCTGATTGCTTTATCTATGATGCTGTTATCACTGGTAAATCCTTGTCATCCCATGATGTTTCAAACTGCCAGTAAAACAATCgggctcagttttgtttttccctccaCTATAATCATACCATGTACCTCAAGCATTGTCAGTTGCACAACCTCTGTTCAATAAACGTCTGCTTTAAAGAGTGTAATGCCAtatcaattcaattttattcttacctttttttcctcctccttttaagtgacaaaaaaaaagtgaagtggTGTTGATGTAAATAGGGTCAGGGGAAAGTTAAGGATGCTGTAGTTATGAATTGAGTGTGGATATGTCAGAGGAAGGGGGAGTAGTGATTGAGTAACCGTTTGAGCCTGGCGGAATGAATTACCATTTCCAGAGTACACTTATTTTAAGAATTAGGCGTGGAGGTGAAACAGAGCAACCCCTAATTCTTCATTGTGTGTGGAGATTTCTCCAAATACTGGGTAATTTTCATGGTGCATAATGAagaccctttttctttttaagaataaaagtattgcataaaacaaaatcctatGCTGCAGAGAATTAAAAGACAATTTTGTAAGGCAGATAAGACCTaagcatttatttgaatgtgtattgTATCATTTGATTGCCACAATCTTCAGAGCATTAACGTGCATTCAGTTACTTTCTGGGAATGTTATCCTTTTTAGTGTATTACATGTTACTGCAATAGAGATCAGTAGAGTCGACATTTCGTTTAAATAGTGCCAGAAATCAAGGGGGGGAGTGGCTAGCAGGATTACCTGGTATCCCAATATGCTCTGTTTCAGGCCAGTGAatcaaaaagtgtaaaaatccATGTGCCCAATATAAGGTCATAGATGGACTGGTAGAAAGTTAATAGGTCCATGTCAAAGATAGTTTGTGTTCAGTATTGCAAAGTTTCTATATGATTAACCAGTTCTTTATTGAtctgttttaaaagattttttttaataagtgttGTGAAGGATATAGGCA
>TU141783
TCATATCGAGAGCGCAAAGGAAAGcagagagcgagcgagcgagcgagagagagagagagagcgagaggggaaaaaaaaagttccgAAGGGAGGCAGGACACAACTGGATAGCCCTGCAATCCCGATTATatgtttctaaaaacaaaatactttatttccagttgttttgtatgtttctaTGATTCCAGATTCGAAAGATTCCATTGATATTCTAAACTAACACCATGGAACTCCTTTGCTACGAGGTGGACACCATCAGGAGAGCCCGTCCAGACCCCAATCTGCTTTTTGATGAGCGGGTTTTGCAAAACCTGTTGACCATCGAAGAAAGGTTTCTACCCCAATGCTCTTATTTCAAATGCGTCCAGAAGGATATTCAGCCATTTATGCGGAGGATGGTGGCAACTTGGATGCTGGAGgTTTGTGAGGAACAGAAGTGCGAAGAAGAAGTTTTTCCTCTGGCTATGAACTATCTGGACAGATTTTTAGCAGTGGTACCTACCAGAAAATGTAATCTACAGTTGCTGGGAGCGGTTTGCATGTTTCTTGCATCAAAATTGAAAGAGACACGTCCATTAACTGCAGAGAAGCTCTGCATCTATACTGACAACTCCATCAAACCACAAGAGTTGCTGATTTCAACTTTGCAATGTACCCTCCATCAATGATAGCAACTGGAAGTGTTGGTGCAGCAATCTGTGGCCTTCAGCTCGATGATGGTGAACGGTCACAGTGGGGAGACAACTTGACAGAACTACTTGCCAAAATTACCAACACAGAAGTGGACTGCCTGAAGGCTTGTCAGGAGCAAATCGAAACGGTACTTGTGAGCAACCTAAGGCAGGTTCGccagcagcaacagcaagagCAGGGAGGACCTGGAAAAGCTGTGGATGAGGTGGACCAGGCAAGCACACCCACAGATGTTCGAGACATCAACCTGTGAGCCCTACTGCTTGGAAACTGCTGGAGGACCaagctggaaaaataaataaaaacaaaaacttaaaaaaaaaacagcaatgaaaaaacaacacaaaccaaTGCCCTACAACAAAAGTGTGCTTGCTCCTCTTTTTAGAAAGGCCTTATTttatactgtacttaaaaataagaataaaaagggCTCCCATATATAGATCACAATCAAAGCTATTTtagatatgaaaataaaaactttttaaaaaataacaaaaaataataaaaaacaaggaaaaaaaagatcaattaTGCATCTTATGTTTTACAGAAGGGAAACCTAcgattaaatattttgcatattcactgtttttaattgtatatccataataaagatatatttaaaaaaaaaaaaacataaaaaattaaaagcttacAAAAGCTTATAAAAAATTAGCTGAAGAAATATAAGTCTACATATGTGGGATCAATATAGGGgctacatttttgtttagttttttttgtgccGCAAGCATACTGTTATCATACACATGTGTGTTTCCATTTGATGTAAATGGAGTGTTCAACACATATTTCCTCTGTGTGTCTAAGATATCTAGGCTggactgtttgtgtgtttgtgtgcgtgcgtgagtgtgtgcgtgagtgagtACATGACGGAGCAGTTTTTCAGCTTAGGTTAATTGCAAAGCAATAGTCTTCAGAAAAAGTTGGGGACGgtcccagacagacagaaaggctCCTTAATGGCGGAACCATTTTTCAGAGCAGAACAACTTGGATCTAATACAGAATGTtgaatctattattattattattattattattattattattattttattttttgtgttaagCAACTACTTCTGTCACAGTGAATGCTTCGTCAAAAATCTTAACTCCAAtaagctttgtttttttgtctgtttttttgtgtcagGAAATAGCTGCTTCAGAGTGTATGTATGCGCGTGTGCGTGTTAGGTAAGGCAGAGGAGAGGAGGTGGGAGGGCTTGGCTGGCGGAGAGTTGGTTGCTTCTACTGCCTGCTTTTTAGGGCACCTGTGTTATTGTGTTCCACTCACATACTTCTCTTTCGAAAATGTCTAAGCAGCCACTCGTGGCGGTGCCTTAGTTTTTGAGGGGGCTGAGCCCACTCACTCCACAGTGAGCTAGGTAGATATGTCAATGTTGCTATTTGAATAaaagagggaggggaagagTAAGGGGGTGCCTGCAGTCTTCAAAGAAAGAGGAATGGCACCTAATGTCCTAACGTCCTAACGTCCTGGCCACTGCCAGGGGTAGAGCAAGTGGCTTGTACTATCAAGGGAGTACTGTATAATGGAGAAAATATGTTTCACTGCCAAGTCGCCAATCAAGGTGAccgttttgttttattttgttctgttttgttttgttgtcagtTGGGCTTGGCTTAAAATGGACAACGGTGCCCAAAGCAATAGAATCTCAATAGAATTAGACAGAGGTTAAAGATCTTAATAGCGAAAGCTACAGAGGGATATAGTTATTTAAGATAAGTTGTGGAATTGTGGTAGTGTCCCACATCGGTTCATGTCACTGCATGCTGCTGATTGAGGGGAAAGATGTTGACAGGCAGTGGCTGGGGTAGAAGGTGGAAGTGGGGAATGGAGGCAGAAGACAGCTACAGTCCCAGGGTCTTTCCCTGCAATAAACTGATACATGTTTGTGTTGAGTGTGTCTATGTTCGATTGTtttaaggttgttgtttttgtttttgttttggaccATTTTCGATCATGCACAATTGAATGGCAGTGGAAATCAAACCAGACTTTACACTGCcaagtttttatgtttgtttgtttgtttgttttttcttcacaaaaggTGCATTTTCTAAGCGTGGAACACTTTTCATTATTGCCAAGTCCACAACTTTGGTCCACATGTTGTTGTAAACTATTTCATTAGCAAAGCACTTTGAACCAAACTCCCAAGGGACGAATGGAATGGTTTTTGAAAGTCTGCTGAGGGAGATGTAGGGATGATGatgttctcttttttgttttagttttttctttcttttttttttgtttatttgttttgcttggggttttttttgtttttttttgttttagttttgtaggGCTGGTTTCCCACATCAGGTGTTCCCATGGCGATAGATTGAGGTGTTTTAGTGATTTGTAACACCTGTTCTAGAAGACATTCCAACTGAAACATTCCAAAAAAAGAGAAGAGTCTGAacatttcatgttatttaaaaacaaataataataattacaatatcaTAAAGAGATAAACTATTACATGccaatgcaaacaaataaaaagcttcTGAAGAGGTTCgcaattttaatttacttttcttttttgttttagttttgggatttttttttaatcaaataataaagtttattaattttacttgAATTTTTTTGTCTGCTCCATGGTTAAGTCACTTGGATggtgtacataaaaaaaaaaaagaaaaagaaaaaaaaggaactttttgttaggatttttttGCACATGTTCTAATACCAGctgaattattatttcacacaaaATTGTTCTTTAAAAGGTTGCGTGGCAGTATTTCTTACTCTTATTGCAAGTTCATATGTTCTGAAGTTGAGTTTTGCAAAGGAATCTGTCCAAAGTCAACTGGAGGAGTAGTTGTGACTTCGAGACAGCTCTAAAATGTTACTTATGCTTGGAACTTCACTGTTAAAAAATCAGGACAGGGCATAGATGACTACTGAGAGCTGAGCTGAACTGTCACCCTTTTGCTACTTGAAATTGACTGTGTTGGATCAATTATGTTCATAAATTGATAAAAACTACGCTCCAGAACATCTCAATTTGCACAATACAATAGGAGGAAAGTGAGATGGCACTATTCTCCttccctcccaccccccagcATAAGTTGGCGTCaactttaaagaaaattaactgTTCCATTTTGTaaggggggtggtggggggtgcgCTCATAGAAAACGCTTTTGCTGGATAAAACAATTTTTGTGGGGaatctctatttatttttcaatgcttCTGAAAACACAATCATTCACCATCATATGCCAATCCATCTTTAATTCACAGTGTTTCTCAGCCAGATGACTAGTACTAgtgattataaataaacagttaattTTTAAATGGAGTTGCTGTTTGAGAAGACTAAAACATTGCCAACTTATCTGGGGTGGGCACAGCAATAAAATGCAAGGCTTTTATGTCTGTCTTTTAGGTGGCTGTAAGTCATTTAACACGTATGGAAGAAACATTAATATGTGGAAGAACTGTATGctccttatatttttcatatgagATATGAATCTGCtgaacatatattttcaacacatacaataaatacatggcTTACAGACTAAAGTATATGGATCATACATTTCTACCATAGGCTAAACATAGGGCCTATATGTTAGTTCTGTATGGGATGTTGCTATGAAAACAAGTGGGTgagcagtttttaattttttaatttttattttggtttgatttggGGTTGGGGGTTTGGATGACAGAGGGGTTTTTGAGGGATTAGATATTCCAAAGTGAACCGTGCAAACAAGGTTGTAATAACAAGTTAAagtatctgtatttttattgggttttttttgtttgttttgttttttttgcgcTGCTAAAAAGCtatgattttttaattcttatacACATTAACAGTACTTAGCTGTGATGTTTCACTGAGTGTGCTgctattttataaacatttgtattatataattattttactgcttaaaaaaacagaatactgAAGTAGATGGTGAAAGAAGATCATGAAACAAGTGTTTGACTGGAAATGCTCTGTACAGTTTGCTCTAATAGcatgtctttgttttctgatgtgttttttttcctcccctttcctttcttttcttgtcaCATTCTGGAAATGCGGTATATATTTACCTCAGGTTTactggacaaaaaaaaagttcccaTTCTCACAATACCTCACAACTACGCAGTTTTAAGGGAGCCTAGTACTACCGTTAATAGTGAAGCAGAAGGACAGATTGActcattggtttgttttcttgctatGAGATGCAGAGACGAAAAAAGTTTTTTACCAATGAAGAAAGGTACACGGCTCCCACCTGGACTCAAATATAGTGGAGGAAGGGAAACAGAACGAACAAACAAATCCCCCCAATGAATGGGCATTAAAATGGAAACTTTCCACATGAGACCTAGCCATTCAATGCATATCATAAATACTAACGGTGCTAAACATCAGCCTTGCAAATTTtgattcacaaataaaaaaatatataataatatcaaataaatagCCCTTTTTTACagccataataataatcaattaagattgattgatgcAGGTTTGATACAGTGCTGGTTTGGTGAATCTCcatcagagttttttttttttttttcttgtagctTTGTGAATTGTGCAGAGATAATTTCTACTTTGAATTCCCCAACAACAGCTGTAGTTCCAGGCCATTGTACTCCCTGCAGAATCCATTTAAATGATAGCTAAAGAAATGCAAGGCCGAAATTTGGCTTTGGATCAATTCACTCTCGGCTTGTGTAAATAATTGGGGAAAATCTCCATAGGGCAAAAAAGGACAAAGTTAACAGGCTACCCTGATTGCTTTATCTATGATGCTGTTATCACTGGTAAATCCTTGTCATCCCATGATGTTTCAAACTGCCAGTAAAACAATCgggctcagttttgtttttccctccaCTATAATCATACCATGTACCTCAAGCATTGTCAGTTGCACAACCTCTGTTCAATAAACGTCTGCTTTAAAGAGTGTAATGCCAtatcaattcaattttattcttacctttttttcctcctccttttaagtgacaaaaaaaaagtgaagtggTGTTGATGTAAATAGGGTCAGGGGAAAGTTAAGGATGCTGTAGTTATGAATTGAGTGTGGATATGTCAGAGGAAGGGGGAGTAGTGATTGAGTAACCGTTTGAGCCTGGCGGAATGAATTACCATTTCCAGAGTACACTTATTTTAAGAATTAGGCGTGGAGGTGAAACAGAGCAACCCCTAATTCTTCATTGTGTGTGGAGATTTCTCCAAATACTGGGTAATTTTCATGGTGCATAATGAagaccctttttctttttaagaataaaagtattgcataaaacaaaatcctatGCTGCAGAGAATTAAAAGACAATTTTGTAAGGCAGATAAGACCTaagcatttatttgaatgtgtattgTATCATTTGATTGCCACAATCTTCAGAGCATTAACGTGCATTCAGTTACTTTCTGGGAATGTTATCCTTTTTAGTGTATTACATGTTACTGCAATAGAGATCAGTAGAGTCGACATTTCGTTTAAATAGTGCCAGAAATCAAGGGGGGGAGTGGCTAGCAGGATTACCTGGTATCCCAATATGCTCTGTTTCAGGCCAGTGAatcaaaaagtgtaaaaatccATGTGCCCAATATAAGGTCATAGATGGACTGGTAGAAAGTTAATAGGTCCATGTCAAAGATAGTTTGTGTTCAGTATTGCAAAGTTTCTATATGATTAACCAGTTCTTTATTGAtctgttttaaaagattttttttaataagtgttGTGAAGGATATAGGCATGATGTAAGGTCAATAAACTCACCATGATTGAAACA

Function


symbol description
ccnd2a Predicted to enable cyclin-dependent protein serine/threonine kinase regulator activity. Predicted to be involved in mitotic cell cycle phase transition; positive regulation of G1/S transition of mitotic cell cycle; and regulation of cyclin-dependent protein serine/threonine kinase activity. Predicted to be part of cyclin-dependent protein kinase holoenzyme complex. Predicted to be active in cytoplasm and nucleus. Is expressed in pharyngeal arch and testis. Human ortholog(s) of this gene implicated in ductal carcinoma in situ; invasive lobular carcinoma; prostate cancer; and transitional cell carcinoma. Orthologous to human CCND2 (cyclin D2).
ccnd2 Enables protein kinase binding activity. Involved in negative regulation of apoptotic process; positive regulation of cell cycle; and positive regulation of cell population proliferation. Located in chromatin; cytosol; and nucleus. Part of cyclin-dependent protein kinase holoenzyme complex. Implicated in ductal carcinoma in situ; invasive lobular carcinoma; prostate cancer; and transitional cell carcinoma. Biomarker of germinoma; granulosa cell tumor; multiple myeloma; nephroblastoma; and seminoma.

NR:

description
PREDICTED: G1/S-specific cyclin-D2

GO:

id name namespace
GO:0000079 regulation of cyclin-dependent protein serine/threonine kinase activity biological_process
GO:0051301 cell division biological_process
GO:0005634 nucleus cellular_component
GO:0019901 protein kinase binding molecular_function

KEGG:

id description
K10151 CCND2; G1/S-specific cyclin-D2

RNA


RNA id representative length rna type GC content exon number start site end site
AMCG00006884 True 6877 mRNA 0.38 5 24304696 24335880
TU141783 False 6649 TUCP 0.37 5 24304779 24335916

Neighbor


gene id symbol gene type direction distance location
AMCG00006879 NA coding upstream 282053 24018072 ~ 24022643 (+)
AMCG00006874 NA coding upstream 383573 23904764 ~ 23921123 (+)
AMCG00006869 NA coding upstream 676004 23623362 ~ 23628692 (+)
AMCG00006868 NA coding upstream 685303 23613000 ~ 23619393 (+)
AMCG00006871 NA coding upstream 708043 23596096 ~ 23596653 (+)
AMCG00006885 NA coding downstream 1992 24337908 ~ 24347363 (+)
AMCG00006888 NA coding downstream 104515 24440431 ~ 24447563 (+)
AMCG00006892 NA coding downstream 144102 24480018 ~ 24502346 (+)
AMCG00006894 NA coding downstream 314744 24650660 ~ 24653870 (+)
AMCG00006898 NA coding downstream 685214 25021130 ~ 25036473 (+)
G113159 NA non-coding upstream 15779 24076753 ~ 24288917 (+)
G113090 NA non-coding upstream 583064 23721382 ~ 23721632 (+)
G113075 NA non-coding upstream 707477 23580515 ~ 23597219 (+)
G112955 LOC105913372 non-coding upstream 1346091 22957248 ~ 22958605 (+)
G112954 NA non-coding upstream 1348496 22953180 ~ 22956200 (+)
G113224 NA non-coding downstream 34802 24370718 ~ 24372835 (+)
G113233 NA non-coding downstream 74141 24410057 ~ 24410304 (+)
G113283 NA non-coding downstream 337709 24673625 ~ 24676576 (+)
G113319 NA non-coding downstream 906649 25242565 ~ 25260402 (+)
G113357 NA non-coding downstream 1055939 25391855 ~ 25395392 (+)
AMCG00006878 ndufb2,LOC102790702 other upstream 268584 24032089 ~ 24036112 (+)
AMCG00006865 hipk2 other upstream 749955 23509149 ~ 23554741 (+)
AMCG00006829 NA other upstream 2682188 21617632 ~ 21622508 (+)
AMCG00006820 NA other upstream 2999818 21265253 ~ 21304878 (+)
G112600 NA other upstream 3101495 21142865 ~ 21203201 (+)
AMCG00006893 ndufa9,LOC107572617,LOC107686627,LOC107732787 other downstream 173087 24509003 ~ 24587119 (+)
G113369 LOC108442871 other downstream 1282151 25618067 ~ 25618445 (+)
G113400 NA other downstream 1479139 25815055 ~ 25832942 (+)

Expression



Co-expression Network